+++ /dev/null
-.. _radial_prism_algo_page:
-
-************
-Radial Prism
-************
-
-This algorithm applies to the meshing of a hollow 3D shape,
-i.e. such shape should be composed of two meshed shells: an outer
-shell and an internal shell without intersection with the outer
-shell. One of the shells should be a :ref:`2D Projection <projection_2D>` of the other
-shell. The meshes of the shells can consist both of triangles and
-quadrangles.
-
-The Radial Prism algorithm would fill the space between the two shells
-with prisms.
-
-.. image:: ../images/radial_prism_mesh.png
- :align: center
-
-.. centered::
- Cut-view of a hollow sphere meshed by Radial Prism algorithm
-
-This algorithm also needs the information concerning the number and
-distribution of mesh layers between the inner and the outer shapes.
-This information can be defined using either of two hypotheses:
-
-.. image:: ../images/number_of_layers.png
- :align: center
-
-.. centered::
- *"Number of layers"* hypothesis
-
-.. image:: ../images/distribution_of_layers.png
- :align: center
-
-.. centered::
- *"Distribution of layers"* hypothesis
-
-*Distribution of layers* hypothesis allows using most of
-:ref:`1D Hypotheses <a1d_meshing_hypo_page>` to define
-the distribution of mesh layers.
-
-**See also** a sample :ref:`TUI script <tui_radial_prism>`.
